MAX3523 Low-Power DOCSIS 3.1 Programmable-Gain Amplifier
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1 Click here for production status of specific part numbers. MAX3523 Low-Power DOCSIS 3.1 General Description The MAX3523 is a programmable gain amplifier (PGA) designed to exceed the DOCSIS 3.1 upstream transmit requirements. The PGA meets the DOCSIS 3.1 spurious limits while transmitting a combined output power of 68dBmV over the RF bandwidth of 5MHz to 204MHz. The gain is controlled in 1dB steps over a 60dB range using an SPI 3-wire interface. The use of Maxim's high-voltage CMOS process enables the device to deliver high dynamic range while minimizing power dissipation under a +5V supply rail. The MAX3523 is available in a 20-pin 5mm x 5mm x 0.75mm TQFN package, and operates over temperature range of 0ºC to +70ºC. Benefits and Features Delivers +68dBmV Output Power While Meeting DOCSIS 3.1 Requirements Covers 5MHz 204MHz Output Bandwidth 3.5W Power Consumption with 5V Supply Voltage Programmable Power Codes Allow Operation at Reduced Power Dissipation Exceeds Spurious Requirements with Fully Loaded OFDM Allocation at +65dBmV at Modem Output 20L 5mm x 5mm x 0.75mm TQFN Package with Exposed Paddle Applications DOCSIS 3.1 Upstream (D3.1 US) Cable Modem (CM) Customer Premises Equipment (CPE) Ordering Information appears at end of data sheet. Simplified Block Diagram MAX3523 IN+ IN OUT+ OUT CSB SDA SCLK TXEN SERIAL INTERFACE VDD GND ; Rev 0; 6/18
2 Absolute Maximum Ratings VDD to GND V to +6.0V TXEN, SDA, SCLK, CSB V to +6.0V IN+, IN-...V DD - 2.1V to 6V OUT+, OUT- to GND V to V DD + 5V RF Input Power...+10dBm Continuous Power Dissipation (T A = 70 C) (derate 54mW/ C above T A = 70 C) mW Operating Junction Temperature (Note 4) C to +150 C Storage Temperature Range C to +165 C Lead Temperature (soldering, 10s) C Soldering Temperature (reflow) C Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Package Information 20 TQFN-EP PACKAGE CODE T Outline Number Land Pattern Number Thermal Resistance, Four-Layer Board: Junction to Ambient (θ JA ) Junction to Case (θ JC ) PCB must be designed for a θ JA of 18.5 C/W or lower 2 C/W For the latest package outline information and land patterns (footprints), go to Note that a +, #, or - in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status. Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four-layer board. For detailed information on package thermal considerations, refer to Maxim Integrated 2
3 Electrical Characteristics (V DD = 4.75V to 5.25V, V GND = 0V, Z OUT = 75Ω, TXEN = high, Gain Code = 63, Power code = 3, P OUT = 68dBmV, to 70 C, Typical values are at V DD = 5V, T A = +25 C, unless otherwise noted. Typical Application Circuit as shown. Note 1.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS DC ELECTRICAL SPECIFICATIONS Supply Voltage V DD V Supply Current Transmit Mode I DD Gain code = 63, power code = Gain code = 63, power code = Supply Current Transmit Disable Mode Gain code = 63, power code = I DD TXEN = low ma Input High Voltage V INH 2 V DD V Input Low Voltage V INL 0.7 V Input High Current I BIASH 1 μa Input Low Current I BIASL -1 μa AC ELECTRICAL SPECIFICATIONS Voltage Gain A V Power Code = 3, Z IN = 100Ω (Note 3), F IN = 10MHz Voltage Gain Variation with Power Code, Any Gain Code Gain Rolloff Gain Step Size Transmit-Disable Mode Noise Gain code = Gain code = Gain code = Gain code = Gain code = Gain code = Gain code = AV ±0.1 db Voltage gain = -16dB to +37dB, f IN = 5MHz to 204MHz Voltage gain = -16dB to +37dB, f IN = 10MHz BW = 160kHz, 5MHz to 204MHz, TXEN = LOW ma db -0.5 db db -66 dbmv Isolation in Transmit-Disable Mode TXEN = LOW 80 db Noise Figure Noise Figure Slope Transmit-Disable/Transmit-Enable Transient Duration Transmit-Disable/Transmit-Enable Transient Amplitude NF Transmit mode, voltage gain = +11dB to +37dB Transmit mode, voltage gain = -16dB to +37dB 14 db -1 db/db TXEN input rise/fall time < 0.1µs 4 μs Gain = 37dB 20 Gain = 3dB 1 Internal Input Impedance Differential balanced 200 Ω Output Return Loss S22 5MHz - 204MHz, TXEN = high (Note 2) 13 db mv pp Maxim Integrated 3
4 Electrical Characteristics (continued) (V DD = 4.75V to 5.25V, V GND = 0V, Z OUT = 75Ω, TXEN = high, Gain Code = 63, Power code = 3, P OUT = 68dBmV, to 70 C, Typical values are at V DD = 5V, T A = +25 C, unless otherwise noted. Typical Application Circuit as shown. Note 1.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Output Return Loss in Transmit- Disable Mode S22 5MHz - 204MHz, TXEN = low (Note 2) 14 db 2nd Harmonic Distortion HD2 f IN = 100MHz, V OUT = +68dBmV -65 dbc Two-Tone 2nd-Order Distortion (f 1 + f 2 ) IM2 f 1 = 100MHz, f 2 = 105MHz, V OUT = +65dBmV/tone -62 dbc 3rd Harmonic Distortion HD3 f IN = 65MHz, V OUT = +68dBmV -60 dbc Two-Tone 3rd-Order Distortion Output Compression at Peak Output Modulation Error Ratio IM3 MER f 1 = 195MHz, f 2 = 200MHz, V OUT = +65dBmV/tone f = 100MHz, GC = 63, output power = +79dBmV 4k FFT, 1024QAM, f IN = 150MHz, BW = 96MHz 4k FFT, 1024QAM, f IN = 192MHz, BW = 24MHz V OUT = +67dBmV 49 V OUT = +68dBmV 47 V OUT = +67dBmV 51 V OUT = +68dBmV dbc 0.3 db CSB to SCLK Rise Setup Time t SENS 20 ns CSB to SCLK Rise Hold Time t SENH 10 ns SDA to SCLK Setup Time t SDAS 20 ns SDA to SCLK Hold Time t SDAH 10 ns SCLK Pulse-Width High t SCLKH 50 ns SCLK Pulse-Width Low t SCLKL 50 ns Maximum SCLK Frequency f SCLK 20 MHz Note 1: Limits are tested at T A = +70 C. Limits over the operating temperature range and relevant supply voltage range are guaranteed by design and characterization. Note 2: Output return loss is measured with the LC matching network, as shown in the Typical Application Circuit. Note 3: Effective input impedance with external 200Ω resistance in parallel with internal 200Ω resistance Note 4: The device is designed for continuous operation up to T J = +125 C for 95,000 hours plus T J = +150 C for 5,000 hours. db Maxim Integrated 4
5 Typical Operating Characteristics (T A = 25 C, P OUT = 68dBmV, TXEN = high, Gain Code = 63, Power Code = 3, V DD = 5V, unless otherwise noted.) SUPPLY CURRENT (ma) SUPPLY CURRENT vs. GAIN CODE PC = 3 PC = 2 PC = 1 PC = GAIN CODE toc01 SUPPLY CURRENT (ma) SUPPLY CURRENT vs. TEMPERATURE V DD = 4.75V V DD = 5.00V V DD = 5.25V TEMPERATURE ( C) toc02 TRANSMIT DISABLE CURRENT (ma) TRANSMIT DISABLE CURRENT vs. TEMPERATURE TEMPERATURE ( C) toc03 VOLTAGE GAIN (db) V DD = 5.25V VOLTAGE GAIN vs. TEMPERATURE V DD = 4.75V V DD = 5.00V toc04 VOLTAGE GAIN (db) VOLTAGE GAIN vs. TEMPERATURE PC = 2 PC = 3 PC = 0 PC = 1 toc05 VOLTAGE GAIN (db) GC = 63 GC = 53 GC = 43 GC = 33 GC = 23 GC = 13 VOLTAGE GAIN vs. FREQUENCY toc TEMPERATURE ( C) TEMPERATURE ( C) GC = VOLTAGE GAIN (db) VOLTAGE GAIN vs. GAIN CODE TA = +25 C TA = +70 C toc07 NOISE FIGURE (db) NOISE FIGURE vs. GAIN CODE F IN = 100MHz toc08 2nd HARMONIC DISTORTION (dbc) nd HARMONIC DISTORTION vs. FREQUENCY P OUT = +68dBmV T A = +25 C T A = +70 C toc GAIN CODE GAIN CODE Maxim Integrated 5
6 Typical Operating Characteristics (continued) (T A = 25 C, P OUT = 68dBmV, TXEN = high, Gain Code = 63, Power Code = 3, V DD = 5V, unless otherwise noted.) 3rd HARMONIC DISTORTION (dbc) rd HARMONIC DISTORTION vs. FREQUENCY P OUT = +68dBmV T A = +70 C T A = +25 C toc10 IM2 (dbc) P OUT = +68dBmV IM2 vs. FREQUENCY (f 1 +f 2 ) T A = +70 C T A = +25 C toc11 IM3 (dbc) P OUT = +68dBmV IM3 vs. FREQUENCY T A = +70 C T A = +25 C toc TXEN TRANSIENT vs. GAIN CODE toc13-5 OUTPUT RETURN LOSS vs. FREQUENCY toc14-5 OUTPUT RETURN LOSS vs. FREQUENCY (TRANSMIT DISABLE MODE) toc15 TXEN TRANSIENT (mvp-p) OUTPUT RETURN LOSS (db) T A = +25 C T A = +70 C OUTPUT RETURN LOSS (db) T A = +25 C T A = +70 C GAIN CODE MER vs. P OUT (OFDM, 4k FFT, 1024 QAM, F IN = 192MHz, BW = 24 MHz) toc16 52 MER vs. P OUT (OFDM, 4k FFT, 1024 QAM, F IN = 150MHz, BW = 96MHz) toc MER (db) MER (db) P OUT (dbmv) P OUT (dbmv) Maxim Integrated 6
7 Pin Configuration TOP VIEW EXPOSED PADDLE SCLK SDA GND VDD * GND IN+ IN- OUT+ OUT- GND 11 CSB TXEN VDD NOTES: 1. CONNECT PINS TO PCB GND FOR IMPROVED HEAT DISSIPATION. 2. * PIN MUST BE LEFT UNCONNECTED. Pin Description PIN NAME FUNCTION 10, 17 VDD +5V Supply. Connect a 0.1μF capacitor to GND. 2 IN+ Positive Input 3 IN- Negative Input 8 CSB Chip Select. Active-low. 7 SDA Serial Data 6 SCLK Clock 9 TXEN Transmit Enable/Disable 4, 11, 13, 15, 19, OUT- PA Negative Output 14 OUT+ PA Positive Output 1, 5, 18 GND Ground 16 * Leave Open Paddle GND Ground Recommended Operating Conditions Connect to PCB GND for Improved Heat Dissipation PARAMETER Ambient Temperature Range CONDITIONS 0 C to +70 C Maxim Integrated 7
8 Typical Application Circuit + ANTI-ALIA S FILTER 0.01µF INPUT 200Ω IN+ OUT- IN MAX R7 C4 OUT+ VDD_CT T1 C8 L2 OUTPUT 75Ω µF CS SDA SCLK SERIAL INTERFACE * VDD C2 TXEN VDD_CT L1 VDD C14 C7 VDD R3 N OT ES 1. PINS TO BE LEFT OPEN OR CONNECTED TO PCB GROUND FOR IMPROVED HEAT DISSIPATION. 2. * PINS MUST BE LEFT UNCONNECTED. 3. FOR COMPONENT VALUES, PLEASE REFER TO THE MAX3523 EV KIT DATA SHEET. C5 Detailed Description The programmable-gain amplifier (PGA) provides 60dB of output level control in 1dB steps. The gain of the PGA is determined by a 6-bit gain code (GC5 GC0) programmed through the serial-data interface (see Register Map). Specified performance is achieved when the input is driven differentially. Four power codes (PC1 PC0) allow the PGA to be used with reduced bias current when distortion performance can be relaxed. In addition, for each power code, bias current is automatically reduced with gain code for maximum efficiency. The PGA features a differential Class A output stage capable of driving an +68dBmV OFDMA signal from 5MHz 85MHz or two 96MHz +65dBmV OFDMA signals from 5MHz 204MHz into a 75Ω load. This architecture features a differential output that provides superior even-order distortion performance. This requires that a transformer be used to convert to a single-ended output. In transmit-disable mode, the output amplifiers are powered down, resulting in low output noise while maintaining the impedance match. 3-Wire Serial Programmable Interface (SPI) and Control Registers The MAX3523 includes a user-programmable register for initializing the part and setting the gain and power consumption. The four MSBs are address bits; the eight least significant bits (LSBs) are used for register data. Data is shifted MSB first. The serial interface should only be written to when TXEN = low, as is the case between transmit bursts in a DOCSIS environment. Once a new set of register data is clocked in, the corresponding power code and/or gain code does not take effect until the 12th rising edge of SCLK. Note: The registers must be written no earlier than 100μs after the device is powered up. Maxim Integrated 8
9 SPI Read Figure 1 shows a single-byte read transaction. In this example, a single byte is read from the slave by the master. The master first asserts CSB, begins driving SDA with the R/Wb bit having value of 1 indicating this a read transaction and starts toggling SCLK. The slave samples the bits on SDA on the rising edge of SCLK. After the R/Wb bit, the master outputs the 3-bit register addresses starting with the most significant bit following which the master releases the SDA line. The slave then starts driving SDA and outputs the single byte that was requested by the master. After the last bit has been output, the slave three-states SDA on the rising edge of CSB that ends the transaction. SPI Write Figure 2 shows a single-byte write transaction. In this example, a single byte is written to the slave by the master. The master first asserts CSB, begins driving SDA with the R/Wb bit having value of 0 indicating this a write transaction and starts toggling SCLK. The slave samples the bits on SDA on the rising edge of SCLK. After the R/ Wb bit, the master outputs the 3-bit register addresses starting with the most significant bit and then the 8-bit data starting with the most significant bit. The internal registers are updated on the 12th rising edge of SCLK. CSB SCLK SDA R/ Wb A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 SPI MASTER DRIVES SDA MAX3523 DRIVES SDA Figure 1. SPI Read Transaction CSB SCLK SDA R/ Wb A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 SPI MASTER DRIVES SDA Figure 2. SPI Write Transaction Maxim Integrated 9
10 tcss tcsh CSB SCLK DATA LATCHED AND GAIN CHANGES HERE WITH R/ Wb = 0 tsdas tsdah tsclkh tsclkl SDA R/ Wb A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 Figure 3. SPI Timing Diagram Register Map ADDRESS NAME MSB LSB MAIN 0x00 GAIN[7:0] PC[1:0] GC[5:0] Register Details GAIN (0x0) BIT Field PC[1:0] GC[5:0] Reset 0x0 0x0 Access Type Write, Read Write, Read BITFIELD BITS DESCRIPTION DECODE PC 7:6 Power Code GC 5:0 Gain Code 0x0: MIN POWER 0x3: MAX POWER 0x0: MIN GAIN 0x3F: MAX GAIN Maxim Integrated 10
11 Applications Information Power Codes The device is designed to exceed the stringent linearity requirements of DOCSIS 3.1 using power code (PC 3). Using lower power codes (PC = 2, 1 or 0) allows for operation at reduced current levels. The full range of gain codes can be used in any power code. The gain difference between power codes is typically less than 0.1dB. Transmit Disable Mode Between bursts in a DOCSIS system, the MAX3523 can be put in transmit-disable mode by setting TXEN low. The output transient on the cable is kept well below the DOCSIS 3.1 requirement during the TXEN transitions. If a gain code or power code change is required, the new values of PC and GC should be clocked in during transmitdisable mode (TXEN low). The new operating point of the MAX3523 is set on the 12th rising edge of SCLK. This should be done between transmission bursts. Output Circuit The output circuit is an open-drain differential amplifier. The outputs should be resistively terminated, as shown in the Typical Application Circuit. A 50:75 impedance ratio transformer should be used as the interface between the differential output of the device and the unbalanced 75Ω load. Amplifier performance depends on the value of the termination resistors. Rated performance is obtained using the R7 termination resistor as shown in the Typical Application Circuit. Increasing the value of this resistor will increase gain and improve SNR at the expense of output return loss. Transformer core inductance may vary with temperature. Adequate primary inductance must be present to sustain broadband output capability as temperatures vary. Input Circuit The differential input impedance of the MAX3523 is 200Ω. In a typical application, however, it is driven from a 100Ω differential source, requiring an external 200Ω matching resistor, as shown in the Typical Application Circuit. The device has sufficient gain and linearity to produce an output level of +68dBmV when driven with a +31dBmV input signal. If an input level greater than +31dBmV is used, the 3rd-order distortion performance degrades. Layout Issues A well-designed printed circuit board (PCB) is an essential part of an RF circuit. For best performance, pay attention to power-supply layout issues as well as the output circuit layout. The MAX3523 evaluation (EV) board layout can be utilized as a guide during PCB design. Its electrical performance has been thoroughly tested, making it an excellent reference. Refer to the MAX3523 EV kit for additional information. Output Circuit Layout Keep the length of the output traces as short as possible. Series inductance between the part and the transformer will degrade the performance at the higher end of the operating frequency range. To maintain the balance of the output network, match the length of the differential traces as closely as possible. Power-Supply Layout For minimal coupling between different sections of the IC, the ideal power-supply layout is a star configuration. This configuration has a large-value decoupling capaci tor at the central power-supply node. The power-supply traces branch out from this node, each going to a sepa rate power-supply node in the circuit. At the end of each of these traces is a decoupling capacitor that provides a very low impedance at the frequency of interest. This arrangement provides local power-supply decoupling at each power-supply pin. The power-supply traces must be capable of carrying the maximum current without significant voltage drop. Exposed Pad Thermal Considerations The exposed pad (EP) of the MAX3523's 20-pin TQFN package provides a low thermal resistance path to the die. It is important that the PCB on which the device is mounted be designed to conduct heat from this contact. In addition, the EP should be provided with a low-inductance path to electrical ground. The MAX3523 EV board is an example of a layout that provides optimal thermal and electrical performance. Ordering Information PART NUMBER TEMP RANGE PIN-PACKAGE MAX3523ETP+ 0 C to +70 C 20 TQFN-EP* MAX3523ETP+T 0 C to +70 C 20 TQFN-EP* * EP = Exposed pad. + Denotes a lead(pb)-free/rohs-compliant package. T Denotes tape-and-reel. Maxim Integrated 11
12 Revision History REVISION NUMBER REVISION DATE DESCRIPTION PAGES CHANGED 0 6/18 Initial release For pricing, delivery, and ordering information, please contact Maxim Direct at , or visit Maxim Integrated s website at Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance. Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc Maxim Integrated Products, Inc. 12
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General Description The MAX6922/MAX6932/ multi-output, 76V, vacuum-fluorescent display (VFD) tube drivers that interface a VFD tube to a microcontroller or a VFD controller, such as the MAX6850 MAX6853.
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General Description The MAX17651 ultra-low quiescent current, high-voltage linear regulator is ideal for use in industrial and batteryoperated systems. The device operates from a 4V to 60V input voltage,
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